4'-Chloro-2,2':6',2''-terpyridine: A Versatile Ligand in Supramolecular Chemistry and Material Science
Explore the pivotal role of this heterocyclic compound in advanced materials and chemical synthesis.
Get a Quote & SampleProduct Core Value
4'-Chloro-2,2':6',2''-terpyridine
As a key building block in organic synthesis, 4'-Chloro-2,2':6',2''-terpyridine is instrumental in developing novel materials. Its unique structure makes it an excellent tridentate ligand, crucial for supramolecular chemistry applications.
- Discover the diverse supramolecular chemistry ligand synthesis applications of this compound.
- Understand how terpyridine derivatives in material science contribute to the creation of advanced functional materials.
- Learn about its participation in Williamson ether reaction terpyridine processes for modified polymer synthesis.
- Explore its significance as one of the essential heterocyclic building blocks for polymers.
Key Advantages
Versatile Ligand Properties
The compound's structure allows it to act as a powerful tridentate ligand, essential for coordination with various metal ions, facilitating organic synthesis building blocks research.
Material Innovation
It serves as a foundational component in the creation of metallo-supramolecular polymers, dendrimers, and micelles, driving innovation in advanced heterocyclic chemistry.
Synthetic Utility
Its involvement in specific reactions, like the Williamson ether reaction, highlights its broad utility in modifying polymers and creating telechelic compounds, a key aspect of coordination polymers research.
Key Applications
Supramolecular Assemblies
Utilized in the construction of complex supramolecular architectures such as double helicates and intricate networks, showcasing its role in supramolecular chemistry ligand synthesis.
Advanced Polymers
Serves as a precursor for functionalized polymers through reactions like the Williamson ether reaction, demonstrating its importance in terpyridine derivatives in material science.
Coordination Chemistry
Forms coordination complexes with metal ions, leading to novel materials with tunable properties for various advanced applications, linking to organic synthesis building blocks.
Custom Chemical Synthesis
Acts as a crucial intermediate for synthesizing more complex terpyridine derivatives and other organic molecules, supporting innovation in custom chemical synthesis.
Related Technical Articles & Resources
Why Choose Us?
Leverage our expertise and state-of-the-art infrastructure to accelerate your journey from discovery to commercial success.
Global Experience
With 20 years of R&D, manufacturing, and sales experience, we proudly serve clients across 60 countries and regions worldwide.
Advanced Facilities
Our in-house R&D laboratory, pilot platform, and large-scale production workshop are equipped to meet the audit requirements of global customers.
Seamless Scalability
We facilitate a perfect transition from small-scale lab requirements (grams) to full commercialization (hundreds of tons).